Despite the Ryzen 5 2400G being classified as a 'Ryzen 5', the specifications of the chip are pretty much the peak specifications that the silicon is expected to offer. AMD has stated that at this time no Ryzen 7 equivalent is planned. The Ryzen 5 2400G has a full complement of four cores with simultaneous multi-threading, and a full set of 11 compute units on the integrated graphics. This is one compute unit more than the Ryzen 7 2700U Mobile processor, which only has 10 compute units but is limited to 15W TDP. The 11 compute units for the 2400G translates as 704 streaming processors, compared to 640 SPs on the Ryzen 7 2700U or 512 SPs on previous generation desktop APUs: an effective automatic 25% increase from generation to generation of desktop APU without factoring the Vega architecture or the frequency improvements.

The integrated graphics frequency will default to 1250 MHz and the total chip TDP is 65W. Maximum supported memory frequency will vary depending on how much memory is used and what type, but AMD lists DDR4-2933 as the support for one single-sided module per channel. Aside from the full set of hardware, the CPU frequency of the 2400G is very high, similar to the standard Ryzen 7 desktop processors: a base frequency of 3.6 GHz and a turbo of 3.9 GHz will leave little room for overclocking. (Yes, that means these chips are overclockable.)

The Ryzen 5 2400G somewhat replaces the Ryzen 5 1400 at the $169 price point. Both chips will continue to be sold, but at this price point AMD will be promoting the 2400G over the 1400. The 2400G has a higher set of frequencies (3.6G vs 3.2G base frequency, 3.9G vs 3.4G turbo frequency), higher memory support (DDR4-2933 vs DDR4-2666), no cross-CCX latency between sets of cores, but has less L3 cache per core (1 MB vs 2 MB). In virtually all scenarios, even if a user does not use the Ryzen 5 2400G integrated graphics, the Ryzen 5 2400G seems the better option on paper.